AI Article Synopsis
- Phototropins are essential proteins in plants that regulate processes like bending toward light, movement of chloroplasts, and opening of stomata by functioning as flavoprotein kinases.
- The researchers determined the crystal structure of a flavin-bound LOV domain, revealing a unique mechanism where light absorption creates a reversible covalent bond between a cysteine residue and the flavin.
- This discovery highlights the molecular basis for phototropin activation and suggests that similar light-responsive mechanisms existed in ancient eubacteria, indicating a long evolutionary history of this light response.
Article Abstract
The phototropins are flavoprotein kinases that control phototropic bending, light-induced chloroplast movement, and stomatal opening in plants. Two flavin mononucleotide binding light, oxygen, or voltage (LOV) domains are the sites for initial photochemistry in these blue light photoreceptors. We have determined the steady state, photoexcited crystal structure of a flavin-bound LOV domain. The structure reveals a unique photochemical switch in the flavin binding pocket in which the absorption of light drives the formation of a reversible covalent bond between a highly conserved Cys residue and the flavin cofactor. This provides a molecular picture of a cysteinyl-flavin covalent adduct, the presumed signaling species that leads to phototropin kinase activation and subsequent signal transduction. We identify closely related LOV domains in two eubacterial proteins that suggests the light-induced conformational change evident in this structure is an ancient biomolecular response to light, arising before the appearance of plants.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC150607 | PMC |
| http://dx.doi.org/10.1105/tpc.010475 | DOI Listing |
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